Xytel’s process engineering team will work with
you to convert your preliminary ideas into a potent process design.
With decades of experience, we provide services to support
fundamental research, thus enabling scale-up and commercialization
to your research ideas. Our process engineers can also help you to
fine tune your research experiments to generate required design
data.
Xytel’s Process engineering team will support the project team
throughout the project lifecycle by performing Front End
Engineering Design (FEED), Detailed Engineering Design (DED),
overseeing procurement & construction activities; and
participating in commissioning activities.

Front End Engineering Design (FEED):
Feed or Basic Engineering is the first stage of project lifecycle.
Xytel develops the conceptual design into a FEED package which
includes,
confirmation on conceptual design,clarification of
technical issues and development of engineering documents viz.
Process flow diagram, Process description with design basis,
critical equipment datasheet, major equipment list and P & I
Diagram. Based on these inputs, Xytel conducts HAZOP if necessary
and then go ahead with detail engineering and procurement
activities.
For large scale pilot plants, Xytel develops detail engineering
documents and conducts HAZOP after detailing and then proceed with
further activities.

Procurement, Construction and FAT:
Review of documents received from vendors and make sure that
procured items matches required specifications
Co-ordinate with construction team and assist in matching
additional process requirements
Perform factory acceptance testing of the unit at our premises

Vessel Design: Xytel has considerable experience in the design and manufacture of pressure vessels,Heat Exchangers, reactors and autoclaves to match specific requirements.
All our vessels are fully ASME-compliant, and are designed in accordance with recognized codes such as API and ASME VIII.
We work with a wide range of metallic materials, from low alloy steels to exotic high-nickel alloys –
with surface treatments where necessary – as well as glass, plastics and fiber composites.

Bench Top, Skid and Pilot Plant Design: We start by reviewing
where the plant will be located and understanding your space
constraints. For pilot plants and skid units, this could either be
an internal or external location. Bench top units are usually
located within an extracted enclosure either self-contained or in a
fume cupboard. Large components such as vessels and pumps are then
modelled and laid out in accordance with the P&ID and their
operating parameters, e.g. head requirements for pumps, straight
pipe runs for flow meters, etc. The framework is then modelled
around the components, providing the necessary support and access
for personnel.

Modular engineering for Modular Fabricated Units: The modular concept means all the necessary components, both process and ancillary equipment such as piping, instrumentation and electrical wiring, are designed to installed in a structural steel frame or mounted on a skid in a modular shop.
Everything is tested before delivery; the module is shipped via truck or barge and finally,
installed on site. While there may be various levels of modularization, all modules are pre-fabricated to the maximum level of completion.

With Digital disruption revolutionizing the
resources, data collation and integrity has become more important
now a day.
At Xytel India, a dedicated Team of E&I Personnel to provide
the latest technology in process automation and control solutions
for your Plant.
Our rich industry experience in process automation systems help us
to provides a complete value added solution for your pilot
plant.
We offer the complete process automation solutions form simple
control loop to complex control systems as per customer and Pilot
Plant Requirement. Following are the activity carried out at
various stage of Project Cycle,

We have In-house facility for Panel Assembly and PLC/SCADA
Programing. We are Experienced with Allen Bradly, Siemens,
Honeywell, Schneider, Rockwell, GE Fanuc, Eurotherm (Controller)
PLC Programing. and for DCS we are experienced in Yokogawa (Centum
VP) and Emerson (Delta V).

There are many advantages to having this in house as compared to
using outside. Time and Quality are the major advantages.

The project management team will collaborate from start to
completion ensuring the build is on time, within scope and complete
customer satisfaction. Once the plant design will meet the client
needs, drawings are finalised and long-lead items are purchased
without delay. The build phase generally starts with the Structural
Fabrication and our in-house team of qualified welders. As the
framework forms the skeleton of the build, constant consideration
is given to the layout, with input from the design engineers
throughout the build process.
The largest components are installed first, followed by others in
order of decreasing size. Vibration, lagging and future maintenance
requirements are always considered when the components are located
on the framework. The components are then connected by
pipework/tubingwork, with joints being compression fittings,
flanges, welds or special fittings, depending on the Requirement.

Our mechanical technicians ensure pipe/tubingwork is laid out
efficiently and tidily. During the mechanical build, the electrical
racks are wired up and thoroughly checked. The final connection of
instruments, heating jackets, pumps and other components are made,
and the it is then ready to undergo commissioning and factory
acceptance testing(FAT) in presence of Client.

Mechanical Commissioning:
All safety devices and pressure equipment that are not rated to the
Test Pressure are removed from the equipment and connections
blanked off. The pressure is then gradually increased, using inert
gases/fluids such as nitrogen or water, with leaks being detected
and eliminated.
The Test Pressure is maintained within the system for a minimum of
30 minutes and the equipment integrity is certified by
inspectors.
The safety devices, which are inspected and verified separately,
and pressure equipment are then replaced and the equipment taken up
to the Working Pressure, where any further leaks are detected and
eliminated. The final installation is then checked by one of our
inspectors.

Electrical Commissioning:
Once the wiring checks are complete, all fuses within the
electrical panel are removed before mains power is connected to the
electrical rack. In a systematic approach, fuses are replaced
one-by-one while carrying out loop checking.
Safety alarms and executive actions are then tested in accordance
with the trip schedule. Where process conditions cannot achieve the
trip condition, the measurement is simulated using calibrated
signal generators.

Control System Validation:
Once the mechanical and electrical commissioning is complete if
applicable to the particular process, the control system is
commissioned, again using inert gases/fluids such as nitrogen or
water. Instrumentation and control valves are calibrated and
control loops tuned.

Process Commissioning:
Final commissioning starts with removing all inert gases/fluids and
replacing them with process gases/fluids.
The plant is operated as per the user requirements and final
calibrations to control loops and instruments are carried out, if
required.
The equipment is then ready for handover and operator training.

We have a comprehensive equipment maintenance
service that can take care of planned maintenance, modifications,
equipment breakdowns, and equipment calibration on request.

If you have pilot plants or process rigs then We have expert
process engineers that can design modifications to your equipment
for improved performance or new tasks.

Apart from the main activity, we also undertake, as a
pre-requisite for turnkey supply, a study to prepare
pre-engineering document to convert bench / lab-scale data to into
pilot / mini plant design when very little information about the
process is available. This exercise is also useful for estimating
the project cost enabling the client to arrive at an investment
decision.

Xytel India also undertakes Annual Maintenance Contracts for Pilot/ Mini Plants. Each AMC has a designated service engineer in lead role and services will include visits at a mutually decided frequency, normal & preventive maintenance operations, guidance & training for proper operation & maintenance of pilot plants.

Automation technology is an integral part of chemical/Refinery plants since the beginning of industrial chemistry. The evolution of process automation has been driven by the specific requirements of process industry and by the innovation cycles of instrumentation technology and control theory.
Xytel India offers solutions to upgrade existing control systems to PLC based/ DCS based as the case may be.

QUALITY POLICY

Xytel india is committed to exceed customer expectations of quality, applicable requirements an schedule by,
Continuous innovation and improvement of product technology keeping up with the latest technical advances.
.